Control of seed weight by a DNA demethylase in soybean

Crop Design Pub Date : 2025-03-26 DOI:10.1016/j.cropd.2025.100102

Mengzhu Zhang , Wu Jiao , Xinyu Jiang , Jinhui Wang , Longfei Wang , Wenxue Ye , Yue Wang , Qingshan Chen , Dawei Xin , Qingxin Song

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引用次数: 0

Abstract

Soybean seeds are a major source of protein and oil for human and animal nutrition. The molecular mechanisms underlying seed weight regulation, especially through epigenetic processes, are still poorly understood in soybean. Here, we reveal that a DNA demethylase gene, GmDMEa, underlies a genetic locus controlling seed weight through genome-wide association studies of 316 soybean accessions. Disruption of GmDMEa by CRISPR/Cas9 significantly increases seed weight and yield per plant accompanied with increased DNA methylation levels in the specific genomic regions which are demethylated in endosperm relative to embryo. GmDMEa is involved in activation of the endosperm-preferred genes that are negatively correlated with seed weight. Furthermore, DNA methylation variations induce significant changes of chromatin accessibility in endosperm. Notably, allelic variations of GmDMEa were artificially selected during soybean domestication. These findings reveal the role of dynamic DNA methylation in regulation of seed weight and provide a valuable gene resource for soybean breeding.

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DNA去甲基酶对大豆种子重的控制

大豆种子是人类和动物营养中蛋白质和油脂的主要来源。大豆种子重量调控的分子机制，特别是表观遗传过程，目前仍知之甚少。在这里，我们通过对316份大豆材料的全基因组关联研究发现，DNA去甲基化酶基因GmDMEa是控制种子重量的遗传位点。CRISPR/Cas9对GmDMEa的破坏显著增加了单株种子重量和产量，同时增加了胚乳中相对于胚胎去甲基化的特定基因组区域的DNA甲基化水平。GmDMEa参与了与种子重量负相关的胚乳偏好基因的激活。此外，DNA甲基化变异引起胚乳染色质可及性的显著变化。值得注意的是，GmDMEa等位基因变异是在大豆驯化过程中人为选择的。这些发现揭示了动态DNA甲基化在大豆种子重调控中的作用，为大豆育种提供了宝贵的基因资源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Crop Design

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